Immunological and circular dichroism studies of maleylated f-1 (A) histone and complexes with DNA

Abstract

Complexes of calf thymus f-1 (A) histone and homologous DNA were examined by circular dichroism. The maleylation of f-1 (A) produces a polypeptide with decreased ability to modify the circular dichroism spectrum of f-1 (A)-DNA complexes. By the introduction of two to three maleyl groups per f-1 (A) molecule, the alteration of the DNA CD spectrum is reduced by nearly half compared to that induced by the native nonmaleylated f-1 (A). Similarly maleylation reduces the serological reactivity of the histone, i.e., the reaction of the maleylated f-1 (A) with specific complement fixing f-1 (A) antibodies. On the other hand, moderate maleylation of f-1 (A) improves the cross-inhibition of the f-2b-anti-f-2b reaction by native f-1 (A) while extensively maleylated f-1 (A) is inert with respect to the same reaction. These results are interpreted in terms of possible conformational changes induced in f-1 (A) by maleylation, partially due to decreasing the histone net charge and perhaps as well as removal of specific site charges necessary for correct binding and interaction. Such an interpretation is consistent with the altered CD spectrum of maleylated f-1 (A) (i.e., a decreased and slightly red-shifted [ θ] 198) and moreover explains why maleylation of two to three lysines per f-1 (A) molecule hinders simultaneously the very different DNA-histone and histone-complement fixing antibody interactions.